Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes
A sandwich-like, graphene-based porous nitrogen-doped carbon (PNCs@Gr) has been prepared through facile pyrolysis of zeolitic imidazolate framework nanoparticles in situ grown on graphene oxide (GO) (ZIF-8@GO). Such sandwich-like nanostructure can be used as anode material in lithium ion batteries,...
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sg-ntu-dr.10356-803072023-07-14T15:49:15Z Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes Xie, Zhiqiang He, Ziyang Feng, Xuhui Xu, Wangwang Cui, Xiaodan Zhang, Jiuhong Yan, Cheng Carreon, Moises A. Liu, Zheng Wang, Ying School of Materials Science & Engineering graphene lithium ion batteries A sandwich-like, graphene-based porous nitrogen-doped carbon (PNCs@Gr) has been prepared through facile pyrolysis of zeolitic imidazolate framework nanoparticles in situ grown on graphene oxide (GO) (ZIF-8@GO). Such sandwich-like nanostructure can be used as anode material in lithium ion batteries, exhibiting remarkable capacities, outstanding rate capability, and cycling performances that are some of the best results among carbonaceous electrode materials and exceed most metal oxide-based anode materials derived from metal orgainc frameworks (MOFs). Apart from a high initial capacity of 1378 mAh g–1 at 100 mA g–1, this PNCs@Gr electrode can be cycled at high specific currents of 500 and 1000 mA g–1 with very stable reversible capacities of 1070 and 948 mAh g–1 to 100 and 200 cycles, respectively. At a higher specific current of 5000 mA g–1, the electrode still delivers a reversible capacity of over 530 mAh g–1 after 400 cycles, showing a capacity retention of as high as 84.4%. Such an impressive electrochemical performance is ascribed to the ideal combination of hierarchically porous structure, a highly conductive graphene platform, and high-level nitrogen doping in the sandwich-like PNCs@Gr electrode obtained via in situ synthesis. Accepted version 2017-03-01T08:40:42Z 2019-12-06T13:46:54Z 2017-03-01T08:40:42Z 2019-12-06T13:46:54Z 2016 Journal Article Xie, Z., He, Z., Feng, X., Xu, W., Cui, X., Zhang, J., et al. (2016). Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes. ACS Applied Materials & Interfaces, 8(16), 10324-10333. 1944-8244 https://hdl.handle.net/10356/80307 http://hdl.handle.net/10220/42146 10.1021/acsami.6b01430 en ACS Applied Materials & Interfaces © 2016 American Chemical Society. This is the author created version of a work that has been peer reviewed and accepted for publication by ACS Applied Materials & Interfaces, American Chemical Society. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1021/acsami.6b01430]. 29 p. application/pdf |
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graphene lithium ion batteries Xie, Zhiqiang He, Ziyang Feng, Xuhui Xu, Wangwang Cui, Xiaodan Zhang, Jiuhong Yan, Cheng Carreon, Moises A. Liu, Zheng Wang, Ying Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes |
| description |
A sandwich-like, graphene-based porous nitrogen-doped carbon (PNCs@Gr) has been prepared through facile pyrolysis of zeolitic imidazolate framework nanoparticles in situ grown on graphene oxide (GO) (ZIF-8@GO). Such sandwich-like nanostructure can be used as anode material in lithium ion batteries, exhibiting remarkable capacities, outstanding rate capability, and cycling performances that are some of the best results among carbonaceous electrode materials and exceed most metal oxide-based anode materials derived from metal orgainc frameworks (MOFs). Apart from a high initial capacity of 1378 mAh g–1 at 100 mA g–1, this PNCs@Gr electrode can be cycled at high specific currents of 500 and 1000 mA g–1 with very stable reversible capacities of 1070 and 948 mAh g–1 to 100 and 200 cycles, respectively. At a higher specific current of 5000 mA g–1, the electrode still delivers a reversible capacity of over 530 mAh g–1 after 400 cycles, showing a capacity retention of as high as 84.4%. Such an impressive electrochemical performance is ascribed to the ideal combination of hierarchically porous structure, a highly conductive graphene platform, and high-level nitrogen doping in the sandwich-like PNCs@Gr electrode obtained via in situ synthesis. |
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School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Xie, Zhiqiang He, Ziyang Feng, Xuhui Xu, Wangwang Cui, Xiaodan Zhang, Jiuhong Yan, Cheng Carreon, Moises A. Liu, Zheng Wang, Ying |
| format |
Article |
| author |
Xie, Zhiqiang He, Ziyang Feng, Xuhui Xu, Wangwang Cui, Xiaodan Zhang, Jiuhong Yan, Cheng Carreon, Moises A. Liu, Zheng Wang, Ying |
| author_sort |
Xie, Zhiqiang |
| title |
Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes |
| title_short |
Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes |
| title_full |
Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes |
| title_fullStr |
Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes |
| title_full_unstemmed |
Hierarchical Sandwich-Like Structure of Ultrafine N-Rich Porous Carbon Nanospheres Grown on Graphene Sheets as Superior Lithium-Ion Battery Anodes |
| title_sort |
hierarchical sandwich-like structure of ultrafine n-rich porous carbon nanospheres grown on graphene sheets as superior lithium-ion battery anodes |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/80307 http://hdl.handle.net/10220/42146 |
| _version_ |
1772827341225984000 |